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[/] [usb11/] [trunk/] [rtl/] [systemc/] [usb_tx_phy.h] - Blame information for rev 13

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/////////////////////////////////////////////////////////////////////
////                                                             ////
////  USB TX PHY                                                 ////
////                                                             ////
////  SystemC Version: usb_tx_phy.h                              ////
////  Author: Alfredo Luiz Foltran Fialho                        ////
////          alfoltran@ig.com.br                                ////
////                                                             ////
////                                                             ////
/////////////////////////////////////////////////////////////////////
////                                                             ////
//// Verilog Version: usb_tx_phy.v                               ////
//// Copyright (C) 2000-2002 Rudolf Usselmann                    ////
////                         www.asics.ws                        ////
////                         rudi@asics.ws                       ////
////                                                             ////
//// This source file may be used and distributed without        ////
//// restriction provided that this copyright statement is not   ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer.////
////                                                             ////
////     THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY     ////
//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED   ////
//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS   ////
//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR      ////
//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,         ////
//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES    ////
//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE   ////
//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR        ////
//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF  ////
//// LIABILITY, WHETHER IN  CONTRACT, STRICT LIABILITY, OR TORT  ////
//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT  ////
//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE         ////
//// POSSIBILITY OF SUCH DAMAGE.                                 ////
////                                                             ////
/////////////////////////////////////////////////////////////////////
 
#ifndef USB_TX_PHY_H
#define USB_TX_PHY_H
 
enum TX_STATE {TX_IDLE, TX_SOP, TX_DATA, TX_EOP1, TX_EOP2, TX_WAIT};
 
SC_MODULE(usb_tx_phy) {
 
  public:
 
        sc_in<bool>                     clk;
        sc_in<bool>                     rst;
        sc_in<bool>                     fs_ce;
        sc_in<bool>                     phy_mode;
        sc_out<bool>            txdp, txdn, txoe;
        sc_in<sc_uint<8> >      DataOut_i;
        sc_in<bool>                     TxValid_i;
        sc_out<bool>            TxReady_o;
 
        sc_signal<sc_uint<3> >  state, next_state;
        sc_signal<bool>                 tx_ready, tx_ready_d;
        sc_signal<bool>                 ld_sop_d, ld_data, ld_data_d, ld_eop_d;
        sc_signal<bool>                 tx_ip, tx_ip_sync;
        sc_signal<sc_uint<3> >  bit_cnt;
        sc_signal<sc_uint<8> >  hold_reg;
        sc_signal<bool>                 sd_raw_o;
        sc_signal<bool>                 hold;
        sc_signal<bool>                 data_done, sft_done, sft_done_r, sft_done_e, eop_done;
        sc_signal<sc_uint<3> >  one_cnt;
        sc_signal<bool>                 stuff;
        sc_signal<bool>                 sd_bs_o, sd_nrzi_o;
        sc_signal<bool>                 append_eop, append_eop_sync1, append_eop_sync2, append_eop_sync3;
        sc_signal<bool>                 txoe_r1, txoe_r2;
 
        void misc_logic_up1(void);
        void misc_logic_up2(void);
        void tpi_up1(void);                     // Transmit in Progress Indicator
        void tpi_up2(void);
        void tpi_up3(void);
        void sr_up1(void);                      // Shift Register
        void sr_up2(void);
        void sr_up3(void);
        void sr_up4(void);
        void sr_up5(void);
        void sr_hold_up(void);
        void sr_sft_done_e_up(void);
        void bs_up1(void);                      // Bit Stuffer
        void bs_up2(void);
        void bs_stuff_up(void);
        void nrzi_up(void);                     // NRZI Encoder
        void eop_up1(void);                     // EOP Append Logic
        void eop_up2(void);
        void eop_up3(void);
        void eop_up4(void);
        void eop_done_up(void);
        void oel_up1(void);                     // Output Enable Logic
        void oel_up2(void);
        void oel_up3(void);
        void or_up(void);                       // Output Registers
        void tx_statemachine(void);
        void tx_state_up(void);
 
        SC_CTOR(usb_tx_phy) {
                SC_METHOD(misc_logic_up1);
                sensitive << clk.pos();
                SC_METHOD(misc_logic_up2);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(tpi_up1);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(tpi_up2);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(tpi_up3);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(sr_up1);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(sr_up2);
                sensitive << clk.pos();
                SC_METHOD(sr_up3);
                sensitive << clk.pos();
                SC_METHOD(sr_up4);
                sensitive << clk.pos();
                SC_METHOD(sr_up5);
                sensitive << clk.pos();
                SC_METHOD(sr_hold_up);
                sensitive << stuff;
                SC_METHOD(sr_sft_done_e_up);
                sensitive << sft_done << sft_done_r;
                SC_METHOD(bs_up1);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(bs_up2);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(bs_stuff_up);
                sensitive << one_cnt;
                SC_METHOD(nrzi_up);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(eop_up1);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(eop_up2);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(eop_up3);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(eop_up4);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(eop_done_up);
                sensitive << append_eop_sync3;
                SC_METHOD(oel_up1);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(oel_up2);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(oel_up3);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(or_up);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
                SC_METHOD(tx_statemachine);
                sensitive << state << TxValid_i << data_done << sft_done_e << eop_done << fs_ce;
                SC_METHOD(tx_state_up);
                sensitive << clk.pos();
                #ifdef USB_ASYNC_RESET
                        sensitive << rst.neg();
                #endif
        }
 
};
 
#endif

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Subversion Repositories usb11

[/] [usb11/] [trunk/] [rtl/] [systemc/] [usb_tx_phy.h] - Blame information for rev 13

Line No.	Rev	Author	Line
1	2	alfoltran	`/////////////////////////////////////////////////////////////////////`
2			`//// ////`
3			`//// USB TX PHY ////`
4			`//// ////`
5			`//// SystemC Version: usb_tx_phy.h ////`
6			`//// Author: Alfredo Luiz Foltran Fialho ////`
7			`//// alfoltran@ig.com.br ////`
8			`//// ////`
9			`//// ////`
10			`/////////////////////////////////////////////////////////////////////`
11			`//// ////`
12			`//// Verilog Version: usb_tx_phy.v ////`
13			`//// Copyright (C) 2000-2002 Rudolf Usselmann ////`
14			`//// www.asics.ws ////`
15			`//// rudi@asics.ws ////`
16			`//// ////`
17			`//// This source file may be used and distributed without ////`
18			`//// restriction provided that this copyright statement is not ////`
19			`//// removed from the file and that any derivative work contains ////`
20			`//// the original copyright notice and the associated disclaimer.////`
21			`//// ////`
22			//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
23			`//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////`
24			`//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////`
25			`//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////`
26			`//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////`
27			`//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////`
28			`//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////`
29			`//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////`
30			`//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////`
31			`//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////`
32			`//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////`
33			`//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////`
34			`//// POSSIBILITY OF SUCH DAMAGE. ////`
35			`//// ////`
36			`/////////////////////////////////////////////////////////////////////`
37
38			`#ifndef USB_TX_PHY_H`
39			`#define USB_TX_PHY_H`
40
41			`enum TX_STATE {TX_IDLE, TX_SOP, TX_DATA, TX_EOP1, TX_EOP2, TX_WAIT};`
42
43			`SC_MODULE(usb_tx_phy) {`
44
45			`public:`
46
47			`sc_in<bool> clk;`
48			`sc_in<bool> rst;`
49			`sc_in<bool> fs_ce;`
50			`sc_in<bool> phy_mode;`
51			`sc_out<bool> txdp, txdn, txoe;`
52			`sc_in<sc_uint<8> > DataOut_i;`
53			`sc_in<bool> TxValid_i;`
54			`sc_out<bool> TxReady_o;`
55
56			`sc_signal<sc_uint<3> > state, next_state;`
57			`sc_signal<bool> tx_ready, tx_ready_d;`
58			`sc_signal<bool> ld_sop_d, ld_data, ld_data_d, ld_eop_d;`
59			`sc_signal<bool> tx_ip, tx_ip_sync;`
60			`sc_signal<sc_uint<3> > bit_cnt;`
61			`sc_signal<sc_uint<8> > hold_reg;`
62			`sc_signal<bool> sd_raw_o;`
63			`sc_signal<bool> hold;`
64			`sc_signal<bool> data_done, sft_done, sft_done_r, sft_done_e, eop_done;`
65			`sc_signal<sc_uint<3> > one_cnt;`
66			`sc_signal<bool> stuff;`
67			`sc_signal<bool> sd_bs_o, sd_nrzi_o;`
68			`sc_signal<bool> append_eop, append_eop_sync1, append_eop_sync2, append_eop_sync3;`
69			`sc_signal<bool> txoe_r1, txoe_r2;`
70
71			`void misc_logic_up1(void);`
72			`void misc_logic_up2(void);`
73			`void tpi_up1(void); // Transmit in Progress Indicator`
74			`void tpi_up2(void);`
75			`void tpi_up3(void);`
76			`void sr_up1(void); // Shift Register`
77			`void sr_up2(void);`
78			`void sr_up3(void);`
79			`void sr_up4(void);`
80			`void sr_up5(void);`
81			`void sr_hold_up(void);`
82			`void sr_sft_done_e_up(void);`
83			`void bs_up1(void); // Bit Stuffer`
84			`void bs_up2(void);`
85			`void bs_stuff_up(void);`
86			`void nrzi_up(void); // NRZI Encoder`
87			`void eop_up1(void); // EOP Append Logic`
88			`void eop_up2(void);`
89			`void eop_up3(void);`
90			`void eop_up4(void);`
91			`void eop_done_up(void);`
92			`void oel_up1(void); // Output Enable Logic`
93			`void oel_up2(void);`
94			`void oel_up3(void);`
95			`void or_up(void); // Output Registers`
96			`void tx_statemachine(void);`
97			`void tx_state_up(void);`
98
99			`SC_CTOR(usb_tx_phy) {`
100			`SC_METHOD(misc_logic_up1);`
101			`sensitive << clk.pos();`
102			`SC_METHOD(misc_logic_up2);`
103			`sensitive << clk.pos();`
104			`#ifdef USB_ASYNC_RESET`
105			`sensitive << rst.neg();`
106			`#endif`
107			`SC_METHOD(tpi_up1);`
108			`sensitive << clk.pos();`
109			`#ifdef USB_ASYNC_RESET`
110			`sensitive << rst.neg();`
111			`#endif`
112			`SC_METHOD(tpi_up2);`
113			`sensitive << clk.pos();`
114			`#ifdef USB_ASYNC_RESET`
115			`sensitive << rst.neg();`
116			`#endif`
117			`SC_METHOD(tpi_up3);`
118			`sensitive << clk.pos();`
119			`#ifdef USB_ASYNC_RESET`
120			`sensitive << rst.neg();`
121			`#endif`
122			`SC_METHOD(sr_up1);`
123			`sensitive << clk.pos();`
124			`#ifdef USB_ASYNC_RESET`
125			`sensitive << rst.neg();`
126			`#endif`
127			`SC_METHOD(sr_up2);`
128			`sensitive << clk.pos();`
129			`SC_METHOD(sr_up3);`
130			`sensitive << clk.pos();`
131			`SC_METHOD(sr_up4);`
132			`sensitive << clk.pos();`
133			`SC_METHOD(sr_up5);`
134			`sensitive << clk.pos();`
135			`SC_METHOD(sr_hold_up);`
136			`sensitive << stuff;`
137			`SC_METHOD(sr_sft_done_e_up);`
138			`sensitive << sft_done << sft_done_r;`
139			`SC_METHOD(bs_up1);`
140			`sensitive << clk.pos();`
141			`#ifdef USB_ASYNC_RESET`
142			`sensitive << rst.neg();`
143			`#endif`
144			`SC_METHOD(bs_up2);`
145			`sensitive << clk.pos();`
146			`#ifdef USB_ASYNC_RESET`
147			`sensitive << rst.neg();`
148			`#endif`
149			`SC_METHOD(bs_stuff_up);`
150			`sensitive << one_cnt;`
151			`SC_METHOD(nrzi_up);`
152			`sensitive << clk.pos();`
153			`#ifdef USB_ASYNC_RESET`
154			`sensitive << rst.neg();`
155			`#endif`
156			`SC_METHOD(eop_up1);`
157			`sensitive << clk.pos();`
158			`#ifdef USB_ASYNC_RESET`
159			`sensitive << rst.neg();`
160			`#endif`
161			`SC_METHOD(eop_up2);`
162			`sensitive << clk.pos();`
163			`#ifdef USB_ASYNC_RESET`
164			`sensitive << rst.neg();`
165			`#endif`
166			`SC_METHOD(eop_up3);`
167			`sensitive << clk.pos();`
168			`#ifdef USB_ASYNC_RESET`
169			`sensitive << rst.neg();`
170			`#endif`
171			`SC_METHOD(eop_up4);`
172			`sensitive << clk.pos();`
173			`#ifdef USB_ASYNC_RESET`
174			`sensitive << rst.neg();`
175			`#endif`
176			`SC_METHOD(eop_done_up);`
177			`sensitive << append_eop_sync3;`
178			`SC_METHOD(oel_up1);`
179			`sensitive << clk.pos();`
180			`#ifdef USB_ASYNC_RESET`
181			`sensitive << rst.neg();`
182			`#endif`
183			`SC_METHOD(oel_up2);`
184			`sensitive << clk.pos();`
185			`#ifdef USB_ASYNC_RESET`
186			`sensitive << rst.neg();`
187			`#endif`
188			`SC_METHOD(oel_up3);`
189			`sensitive << clk.pos();`
190			`#ifdef USB_ASYNC_RESET`
191			`sensitive << rst.neg();`
192			`#endif`
193			`SC_METHOD(or_up);`
194			`sensitive << clk.pos();`
195			`#ifdef USB_ASYNC_RESET`
196			`sensitive << rst.neg();`
197			`#endif`
198			`SC_METHOD(tx_statemachine);`
199			`sensitive << state << TxValid_i << data_done << sft_done_e << eop_done << fs_ce;`
200			`SC_METHOD(tx_state_up);`
201			`sensitive << clk.pos();`
202			`#ifdef USB_ASYNC_RESET`
203			`sensitive << rst.neg();`
204			`#endif`
205			`}`
206
207			`};`
208
209			`#endif`